Tritium concentration in soybean plants exposed to atmospheric HTO during nighttime and daytime

Potted soybean plants were exposed to evaporate HTO for 1 h inside an exposure box at two different growth stage（flowering and podding stage, filling stage）during nighttime and daytime. The concentration of tissuefree water tritium（TFWT） and organically bound tritium（OBT） in leaves and beans was mea...

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Veröffentlicht in:	Nuclear science and techniques 2016-04, Vol.27 (2), p.44-51, Article 39
Hauptverfasser:	Shen, Hui-Fang, Liu, Wei
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Sprache:	eng
Schlagworte:	Energy Hadrons Heavy Ions Nuclear Energy Nuclear Physics 大气大豆叶片植物氚浓度游离水白天评价模型高浓度条件
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container_title	Nuclear science and techniques
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creator	Shen, Hui-Fang Liu, Wei
description	Potted soybean plants were exposed to evaporate HTO for 1 h inside an exposure box at two different growth stage（flowering and podding stage, filling stage）during nighttime and daytime. The concentration of tissuefree water tritium（TFWT） and organically bound tritium（OBT） in leaves and beans was measured at the end of the exposure. The results indicated that the quasi-equilibrium between the TFWT concentrations in the soybean leaves and the HTO concentration of the ambient air moisture required more than 1 h to be reached. The relative TFWT concentrations in the nighttime represent about 1/2 to 2/3of the concentrations obtained in the day in the leaves compared to about 1/2 to 4/3 in the beans. The relative OBT concentrations under night conditions were about 2/5 to 1/2 of those under day conditions in the leaves, contrary to 1/2–7/10 for the beans. By developing tritium concentration assessment model with a short-term release of atmospheric HTO, we comprehensively considered the plant growth stage and the environmental conditions.
doi_str_mv	10.1007/s41365-016-0031-8
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The concentration of tissuefree water tritium（TFWT） and organically bound tritium（OBT） in leaves and beans was measured at the end of the exposure. The results indicated that the quasi-equilibrium between the TFWT concentrations in the soybean leaves and the HTO concentration of the ambient air moisture required more than 1 h to be reached. The relative TFWT concentrations in the nighttime represent about 1/2 to 2/3of the concentrations obtained in the day in the leaves compared to about 1/2 to 4/3 in the beans. The relative OBT concentrations under night conditions were about 2/5 to 1/2 of those under day conditions in the leaves, contrary to 1/2–7/10 for the beans. 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The concentration of tissuefree water tritium（TFWT） and organically bound tritium（OBT） in leaves and beans was measured at the end of the exposure. The results indicated that the quasi-equilibrium between the TFWT concentrations in the soybean leaves and the HTO concentration of the ambient air moisture required more than 1 h to be reached. The relative TFWT concentrations in the nighttime represent about 1/2 to 2/3of the concentrations obtained in the day in the leaves compared to about 1/2 to 4/3 in the beans. The relative OBT concentrations under night conditions were about 2/5 to 1/2 of those under day conditions in the leaves, contrary to 1/2–7/10 for the beans. 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The concentration of tissuefree water tritium（TFWT） and organically bound tritium（OBT） in leaves and beans was measured at the end of the exposure. The results indicated that the quasi-equilibrium between the TFWT concentrations in the soybean leaves and the HTO concentration of the ambient air moisture required more than 1 h to be reached. The relative TFWT concentrations in the nighttime represent about 1/2 to 2/3of the concentrations obtained in the day in the leaves compared to about 1/2 to 4/3 in the beans. The relative OBT concentrations under night conditions were about 2/5 to 1/2 of those under day conditions in the leaves, contrary to 1/2–7/10 for the beans. By developing tritium concentration assessment model with a short-term release of atmospheric HTO, we comprehensively considered the plant growth stage and the environmental conditions.</abstract><cop>Singapore</cop><pub>Springer Singapore</pub><doi>10.1007/s41365-016-0031-8</doi><tpages>8</tpages></addata></record>
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subjects	Energy Hadrons Heavy Ions Nuclear Energy Nuclear Physics 大气大豆叶片植物氚浓度游离水白天评价模型高浓度条件
title	Tritium concentration in soybean plants exposed to atmospheric HTO during nighttime and daytime
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